Paper 1 biology organisation

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    Rosie

    Cards (155)

    • Tissue
      A group of cells with a similar structure and function
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    • Organ
      A group of tissues working together for a specific function
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    • Organ system
      Organs grouped together to form organisms
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    • Main nutrients in food
      • Carbohydrates
      • Protein
      • Lipids (fats)
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    • Digestion
      1. Large food molecules broken down into small molecules by enzymes
      2. Small molecules absorbed into bloodstream
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    • Main organs of the digestive system
      • Mouth
      • Esophagus
      • Stomach
      • Small intestine
      • Large intestine
      • Liver
      • Pancreas
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    • Mouth
      • Food chewed, enzymes in saliva begin to digest starch
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    • Esophagus
      • Food passes down into stomach
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    • Stomach
      • Enzymes begin digestion of proteins, contains hydrochloric acid, churning action turns food into fluid
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    • Small intestine
      • Chemicals released from liver and pancreas continue digestion of starch, protein and lipids
      • Small food molecules produced by digestion are absorbed into bloodstream
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    • Large intestine

      • Water absorbed into bloodstream, feces released from body
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    • Products of digestion used by body to build new carbohydrates, lipids and proteins
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    • Some glucose produced is used in respiration
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    • Enzymes

      Catalyze chemical reactions, speed them up
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    • Enzymes
      • Large protein molecules
      • Have a groove on their surface called the active site
      • The active site is where the substrate attaches
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    • Substrate
      The molecule that the enzyme breaks down
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    • Substrate fits into active site

      Enzyme can break down substrate
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    • Substrate does not fit into active site

      Enzyme cannot break down substrate
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    • Lock and key theory

      Enzymes are specific, the substrate must fit perfectly into the active site
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    • Protein digestion

      Proteases break down proteins into amino acids
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    • Proteases
      • Found in stomach, pancreatic fluid, small intestine
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    • Proteins
      Long chains of amino acids
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    • Starch digestion
      Amylase breaks down starch into simple sugars
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    • Amylase
      • Found in saliva, pancreatic fluid
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    • Starch
      Chain of glucose molecules
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    • Lipid digestion

      Lipase breaks down lipids into glycerol and fatty acids
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    • Lipase
      • Found in pancreatic fluid, small intestine
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    • Lipids
      Molecule of glycerol attached to three fatty acids
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    • Bile
      • Made in liver, stored in gallbladder
      • Not an enzyme
      • Emulsifies lipids to increase surface area for lipase
      • Alkaline to neutralize stomach acid
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    • Enzyme
      Speeds up chemical reactions by having a groove on their surface called the active site
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    • Substrate
      The molecule that the enzyme reacts with, fits perfectly into the active site
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    • Lock and key theory
      The substrate must fit perfectly into the active site
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    • Effect of temperature on enzyme activity
      1. Gradually increase temperature
      2. Measure enzyme activity (rate of reaction)
      3. Activity increases as temperature increases
      4. Reach optimum temperature
      5. Activity rapidly decreases past optimum temperature
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    • Optimum temperature
      The temperature at which the enzyme is working at the fastest possible rate, maximum frequency of successful collisions between substrate and active site
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    • Denaturation
      At high temperatures, the enzyme molecule vibrates and the shape of the active site changes, so the substrate no longer fits perfectly
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    • Effect of pH on enzyme activity
      1. Alter pH
      2. Measure enzyme activity (rate of reaction)
      3. Enzyme has an optimum pH where activity is maximum
      4. Activity drops to zero if pH is too acidic or too alkaline
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    • Optimum pH
      The pH at which the enzyme works best
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    • Enzymes with different optimum pH
      • Protease enzyme in stomach (acidic pH)
      • Lipase enzyme from pancreas (alkaline pH)
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    • Carrying out chemical tests for carbohydrates, proteins and lipids
      1. Grind food sample with distilled water using mortar and pestle to make a paste
      2. Transfer paste to beaker and add more distilled water
      3. Stir to dissolve chemicals
      4. Filter solution to remove suspended food particles
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    • Carbohydrates
      Include starch and sugars such as glucose
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